A short note on a 3D spectral analysis for turbulent flows on unstructured meshes
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A short note on a 3D spectral analysis for turbulent flows on unstructured meshesDate
2023Citation
Tsoutsanis, P., Nogueira, X., Fu, L. (2023). A short note on a 3D spectral analysis for turbulent flows on unstructured meshes. Journal of Computational Physics, 474, 111804.
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Tsoutsanis, Panagiotis; Nogueira, Xesus; Fu, Lin (2022): Data supporting: 'A short note on a 3D spectral analysis for turbulent flows on unstructured meshes'. Cranfield Online Research Data (CORD). Dataset. https://doi.org/10.17862/cranfield.rd.21271122.v1
Abstract
[Abstract:] We propose two techniques for computing the energy spectra for 3D unstructured meshes that are consistent across different element types. These techniques can be particularly useful when assessing the dissipation characteristics and the suitability of several popular non-linear high-order methods for implicit large-eddy simulations (iLES). Numerical experiments demonstrate the performance of several element types for iLES of the Taylor-Green vortex, where a significantly different dissipation and dispersion mechanism for each element type is revealed. The energy spectra results are dependent on the technique selected for obtaining them, therefore an additional established technique from the literature is also included for comparison to further analyse their similarities and their differences. These techniques can be an integral tool for the tuning and calibration of non-linear high-order methods that can benefit both explicit and implicit large-eddy simulations (LES).
Keywords
FFT
Unstructured meshes
Implicit large eddy simulation
Turbulent flow
High-order non-linear methods
Unstructured meshes
Implicit large eddy simulation
Turbulent flow
High-order non-linear methods
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Atribución 3.0 España